1 resultado para esterases

em ArchiMeD - Elektronische Publikationen der Universität Mainz - Alemanha


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Delivery of therapeutic nucleic acid based drugs is still very demanding and difficult to manage and monitor. For this reason, a precise method for the monitoring of RNAi pathways is necessary. This thesis explores a new approach for sensing of potentially therapeutic nucleic acids, using the interaction of so called prodyes with intracellular enzymes in a prodrug manner. To realize this concept, some non-fluorescent, fluorescein based asymmetric dyes were synthesized and their spectroscopic characteristics were studied. Azide-alkyne Click chemistry was applied for conjugation purposes, using a new protocol at weak acidic pH to get intact prodye constructs. Both, an electrophoretic mobility shift assay with polyacrylamide gels and in-cuvette experiments showed remarkable OFF-to-ON behavior of these new siRNA constructs under physiological conditions. After salt-free purification, subsequent hybridization to double-stranded ribonucleic acids and nanoformulation to lipoplexes, the prodye conjugated siRNA was examined in cellular uptake studies for First Contact Imaging. The investigated siRNA-prodye conjugates showed strong sensitivity to esterases, being hydrolyzed at the biolabile function and developing a strong fluorescence which was verified in bulk. As an optimization, a new profluorescent molecule system was designed and synthesized, which has a carbonate as biolabile 6’ protecting group and a highly water soluble 3’ clickable linker. This new non-fluorescent but colored prodye showed 12 - 320 times increased fluorescence intensities between OFF- and ON- states, depending to the deprotection method. This is the first reported molecule model of an asymmetric profluorescent fluorescein, having the very favorable 3’ & 6’ functions.